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Game-Based Channel Access for AoI-Oriented Data Transmission Under Dynamic Attack

Yaoqi Yang, Xianglin Wei, Renhui Xu, Laixian Peng, Lingjun Liu

2021IEEE Internet of Things Journal29 citationsDOI

Abstract

Efficient grant-free uplink transmission is critical in minimizing Age of Information (AoI) in multichannel Internet of Things (IoT) networks. But less attention has been paid to this topic especially when dynamic channel access attacks (DCAAs) exist. To bridge this gap, this article formulates the distributed channel access problem in AoI-oriented IoT networks, and then a reinforcement learning-based solution is put forward based on the theoretical results of the game theory. First, a utility maximization problem is formulated for each sensor node based on its average AoI under DCAAs with probabilistic ACK feedback. Second, the problem is transformed into two ordinary potential game (OPG) models, which are both proved to have at least one nash equilibrium (NE); and a distributed learning algorithm is proposed to reach the NE. Finally, extensive simulations are conducted to evaluate the proposal’s performance. Simulation results verify the effectiveness of the proposed algorithm in various parameters settings.

Topics & Concepts

Computer scienceComputer networkChannel (broadcasting)Transmission (telecommunications)Data transmissionTelecommunicationsAge of Information OptimizationAdvanced Wireless Network OptimizationIoT Networks and Protocols
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